Convertible pallet jack with rollers

ABSTRACT

A pallet jack has a rotatable forked platform that match the pallet arms of the host fork where the host fork has embedded rollers. The rotatable forked platform has gaps that enclose the rollers embedded in the host fork to provide a smooth surface like that of a conventional pallet jack. The rollers are located at intervals from the front of the host fork to the rear of the overlay platform. When the forked platform is raised to expose the rollers, the rollers work in conjunction with an inclined ramp, also having embedded rollers, attached to the front of the arms to lift a container onto the forks. Once a container is aligned in front of the inclined ramp, the pallet jack is driven forward. The momentum of the pallet jack causes the inclined ramp to lift the container onto the arms.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a divisional of U.S. application Ser. No. 15/384,517 filed on Dec. 20, 2016, which is a divisional of U.S. application Ser. No. 15/066,628, filed on Mar. 10, 2016.

BACKGROUND

The present disclosure relates to pallet jacks with hydraulic lift that may be used in industry for lifting and transporting loaded pallets and other containers and for unloading at new locations. Transporting containers in an industrial setting is a process that has been refined and standardized over many years. Typically, pallets are designed to be compatible with standard pallet jacks to automate loading and unloading.

In the art of material handling, pallets jacks typically include wheeled devices intended for the manual lifting of a pallet, with a load resting thereon, to transport the pallet and load from one work area to another. U.S. Pat. No. 4,589,669 discloses an exemplary pallet jack, or hydraulic pallet truck. Pallet jacks typically include forked support arms upon which extensible rollers are mounted at terminal ends. The opposing ends of the forked support arms are typically connected to one another and attached in some fashion to a pivotal wheel with a hydraulic lift. The pivotal wheel allows the user to steer the pallet jack when either pushing or pulling the pallet jack. The hydraulic lift is operatively connected to the wheel and the extensible rollers to raise and lower the support arms to engage and transport the pallet or to disengage the pallet jack from the pallet.

Due to the generally standardized nature of industrial pallets, pallet jacks are designed to be compatible only with the standard pallet opening. The standard pallet has openings that are matched in size to the forked support arms. The forked support arms insert into openings, and once fully inserted, allow the operator to use the hydraulic system to lift the pallet and its contents. However, pallet openings are not always of standard size, thereby creating the potential for an operator to be forced to leave the pallet, or risk damaging the pallet by attempting to use incompatible support arms.

Further, a standard pallet jack is unable to lift containers that have no slots for a standard pallet jack. Therefore, there is a need, particularly as global trade has increased, for pallet jacks to handle various types of containers, beyond the standard pallet. Such containers include palletized and unpalletized freight, trays, cartons, and boxes.

Therefore, there is a need for a pallet jack that can accommodate all variety of containers.

SUMMARY

The present disclosure overcomes the limitations of existing pallet jacks by introducing forked support arms having embedded rollers, which allows a container to be moved without resistance onto the forked support arms having rollers. The forked support arms of the present disclosure operate in conjunction with an inclined ramp, also having rollers, for moving a container onto the forked support arms. The inclined ramp may be pivotable.

The inclined ramp attaches to a standard pallet jack with an attachment axle which may be fused or welded to the front of the host support arms. In some embodiments, underneath the front of the inclined ramp may be a roller, which allows the ramp to move in conjunction with the pallet jack. At the front edge of the ramp may be a flexible hinged and tapered lip which interacts with the bottom edge of the container to slide underneath the container with limited impact, allowing the container to move onto the inclined ramp. Transference of a container from the floor to the horizontal platform, in the present disclosure, generally takes place within 3 to 5 seconds in a single continuous motion.

The present disclosure allows a container to be transferred from a floor onto the pallet jack without requiring a vertical lifting force or an external attachment to a container; rather, the standard forward motion of the pallet jack is sufficient to transfer the container from the floor to the horizontal plane. The attached inclined ramp is moved in the direction of the container and the momentum of the pallet jack, at standard speed, acts as a wedge to create a force on the container sufficient to lift the container onto the forked support arms.

The rollers embedded in the forked support arms then allow the container to move into proper position on the pallet jack for transference without the need for manual force, or any additional force beyond the momentum of the pallet jack, applied to the container. The rollers affixed to the electric pallet jack forks may be of a durable hardened solid steel type. Rollers in the inclined ramp may be easily interchangeable.

The speed that the pallet jack must travel to facilitate transfer of the container onto the pallet jack may vary depending on the type of material freight being transferred. However the design of the apparatus allows slow to moderate operation of the pallet jack to generally achieve sufficient results.

In the present disclosure, the forked support arms having rollers are provided as an overlay attachment to existing standard forked support arms. Here, the overlay platform with rollers is attached by a hinge at the joint between the bulkhead and the end of the forked support arms proximal to the bulkhead of a standard pallet jack. The overlay platform is locked in the vertical position when not in use, either by a pin, or attachment to existing structures on the pallet jack.

When lowered into a horizontal position, the roller overlay support arms, where the rollers are in the overlay platform attached to a standard pallet jack, transform a standard pallet jack into a pallet jack that can work in conjunction with an attachable inclined ramp or wedge, as described above, to allow the above described process of loading a container on to the device of the present disclosure. This system allows a wide variety of containers to be loaded onto a pallet jack.

The rollers in the support arms span the entire length of the arms. The inclined ramp can be attached to existing components of the forked support arm and added when an unpalletized container or non-standard pallet is necessary to be loaded. The design of the inclined ramp allows the forward momentum of the pallet jack to drive the container onto the rollers in the forked support arms.

DESCRIPTION OF DRAWINGS

The present invention and the manner in which it may be practiced is further illustrated with reference to the accompanying drawings wherein:

FIG. 1 is a perspective view of the roller overlay platform with rollers in an attachment on a pallet jack;

FIG. 2 is a top view of the roller overlay platform with rollers in an attachment on a pallet jack adjacent the bulkhead;

FIG. 3 is a perspective view of the roller host platform with rollers in the overlay support arms of the pallet jack;

FIG. 4 is a top view of the pallet jack with the rollers in the overlay support arms of the pallet jack, also showing the guide rails in an upright position;

FIG. 5 is a side elevational view showing the rollers in the host support arms of the pallet jack in conjunction with the inclined ramp;

FIG. 6 is a top view of the rollers in the host support arms of the pallet jack in conjunction with the inclined ramp, where the rollers are generally spherical in shape.

DETAILED DESCRIPTION

At the outset, it should be clearly understood that like reference numerals are intended to identify the same structural elements, portions, or surfaces consistently throughout the several drawing figures, as may be further described or explained by the entire written specification of which this detailed description is an integral part. The drawings are intended to be read together with the specification and are to be construed as a portion of the entire “written description” of this invention as required by 35 U.S.C. § 112. As used in the following description, the terms “horizontal”, “vertical”, “left”, “right”, “up”, “down”, as well as adjectival and adverbial derivatives thereof (e.g., “horizontally”, “vertically”, “upwardly”, etc.) simply refer to the orientation of the illustrated structure as the particular drawing figure faces the reader. Similarly, the terms “inwardly” and “outwardly” generally refer to the orientation of a surface relative to its axis of elongation, or axis of rotation, as appropriate.

FIGS. 1-4 show external views, from various perspectives, of a pallet jack 100 and rollers 14 of the present disclosure. FIG. 1 shows a perspective view of pallet jack 100. The pallet jack 100 has a host platform 4 with a pair of planar host support arms 8. To switch from a standard operating pallet jack 100 to a pallet jack that can transport unpalleted containers such as boxes, the present disclosure includes roller overlay support arms 10 that are illustrated in the vertical position and can be seen extending vertically from the bulkhead 12 adjacent the battery concealment box 18 and planar host support arms 8.

The rollers 14 are longitudinal and are embedded in the roller overlay support arms 10. The rollers 14 are located at intervals along each of the roller overlay support arms 10 in order to allow a container to travel unimpeded by friction with the flat immobile surface of the roller overlay support arms 10 that lie between each roller 14. The rollers 14 may include a central shaft to allow the rollers 14 to rotate. The central shaft may be rotatably connected to a roller overlay support arm side bracket which may be positioned on opposing sides of the roller overlay support arm and which may be connected to the bottom wall of the forked support arm so that objects which may be placed on the roller overlay support arm 10 may be moved along the rollers 14.

The rollers 14 of the roller overlay support arms 10 do not extend below the bottom surface of the roller overlay support arm 10, and therefore may rotate freely as a container moves along the rollers 14. The pallet jack bulkhead 16 is shown adjacent the roller overlay supports arms 10. Battery concealment box 18 lies at the proximal end of the planar host support arms 10.

FIG. 2 shows the roller overlay support arms 10 containing rollers 14. The roller overlay support arms 10 may have an inner fork stabilizer 22 and an outer fork stabilizer 24 linking the two roller overlay support arms 10. Bulkhead screws 26 secure the bulkhead 12 to the battery concealment box 18. When in the vertical position, the roller overlay support arms 10 are held in place through attachment of a pin with a pin and clip lock mechanism where the pin receptor is attached to the pallet jack bulkhead 12, or optionally using a clip or tie attached to slotted opening 28.

The roller overlay support arms 10 are attached to the planar host support arms 8 via a hinge 30 and an axle 32. The hinge 30 and axle 32 join the planar host support arms 8 and the roller overlay support arms 12. Hinge 30 allows the roller overlay support arm 12 to rotate 90 degrees from the vertical position to the horizontal position on top of the planar host support arms 8.

Once in the horizontal position, the roller overlay support arms 10 contact, and completely cover, host support arms 8 while still allowing free rotation of rollers 14. Overhanging horizontal stabilizers 34 attached to the roller overlay support arms 12 contact the planar host support arms 8 in order to prevent lateral movement of the roller overlay support arms 12 once in the horizontal position.

In some embodiments, both the planar host support arms 8 and the roller overlay support arms 12 may be removed and used interchangeably through the use of a common hinge and axle. In some embodiments, the planar host support arms 8 may be adjustable in length from the rear the arm. In some embodiments, the rollers 14 may recede to the level of the surrounding surface of roller overlay support arm 12, depending on the amount of pressure applied by the container, or through manual mechanical adjustment. The rollers 14 may also ascend vertically above said surface up to ¾ inches.

FIG. 3 shows the roller overlay support arms 10 containing rollers 14 with an attached inclined ramp 44 containing embedded rollers 14. When the standard forward motion of the pallet jack 100 is driven toward a container, the momentum of the pallet jack 100 is sufficient to transfer a container from the floor to the horizontal plane of the roller overlay support arms 10, when roller overlay support arms 10 are in the lowered position, as shown in FIG. 2. The attached inclined ramp 44 is moved in the direction of the container and the momentum of the pallet jack 100, at standard speed, acts as a wedge to create a force on the container sufficient to lift the container onto the roller overlay support arms 10. The rollers in the embedded roller overlay support arms 10 then allow the container to move into proper position on the pallet jack for transference without the need for manual force, or any additional force, beyond the momentum of the pallet jack, applied to the container. The structure of the rollers 14 are longitudinal and extend the length of the roller overlay support arms 10. The rollers 14 may include a central shaft to allow the rollers 14 to rotate.

The inclined ramp 44 may have a surface of ⅜″ thick flat metal surface to afford structural soundness, and ⅜″ thick welded, angled sides, congruent to the overall wedge shape. The underside of the flat surface of inclined ramp 44, in one embodiment of the present disclosure, has welded cross sections of metal girders. At the front of the inclined ramp 44 is a tangent curve tapered leading edge lip 47, or second inclined ramp bulkhead plate which may be pivotably connected to the inclined ramp 44 by a hinge so that lip 47 may pivot with respect to the inclined ramp 44 in order to provide a smooth transition to the support surface. The lip 47 may be attached to the ramp by metal axle. (this tangent curve is unique to performance of interjection in that it is the minimal leading edge that is first introduced to the footless border and presents the tapered curved surface to minimize resistance. The inclined ramp 44 is truncated flat ramp, generally at an angle of approximately 45 degrees from the floor to the horizontal platform to provides less material surface resistance to edges and footless bottoms. In one embodiment the inclined ramp 44 measures 31 inches from tip to tip.

The rollers 14, in both the forked support arms and the inclined ramp 44 allow minimal resistance and fluidity of motion when transferring materials from a stationary position on a floor onto the horizontal platform of a pallet jack 100. Rollers 14 also allow for the unloading of containers from the pallet jack 100 onto a flat surface by providing a means to grasp a container manually while the electric pallet jack 100 is reversed, or by manually supppushing a container off the pallet jack 100.

The inclining capacity of inclined ramp 44 and leading edge lip 47 are independent of each other such that the lip 47 stays in touch with the surface regardless of the angle of the inclined ramp 44 being in the raised position with respect to the upmost positioning of the pallet jack 100, and maintains the ability to insert the inclined ramp 44 beneath a container regardless of variations in conditions. This aspect of the inclined ramp 44 allows the lip 47 to avoid being affected by the positioning of the vertical height of inclined ramp 44. The inclined ramp 44 therefore forms a singular piece to allow for efficient transition of a container; with only the force of the momentum of the pallet jack 100 to move the container onto the roller overlay support arms 10.

A small fraction of the roller 14 on inclined ramp 44 may come through the top surface opening of the inclined ramp 44 to come in contact with the bottom surface of the container, thereby minimizing friction and distributing container weight in a fluid motion. The truncated shape of inclined ramp 44 may have a top and bottom where the top and bottom sides are equally symmetrical in a T shape.

The openings within the center metal structural frame allow for insertion of rollers 14 into inclined ramp 44 in rows so as not to inhibit the structural strength of the inclined ramp 44. The main body of inclined ramp 44 may be forged from a single sheet of ⅜ inch thick metal with openings for the rollers 14 cut out of the center of the body surface allowing the integrity of the single sheet of metal to remain structurally uncompromised.

The rollers 14 may be equipped with adjustable, collapsible pins that allow them to snap into pre-drilled and set-hole openings configured within the angled side walls of both the forked support arms. The sides of the inclined ramp 44 are angled to support strength and promote its effectiveness as an overall wedge. Viewed from the side the tangent curve lip 47 is visible, as shown in FIG. 3. The angled shape of inclined ramp 44 allows insertion beneath footless containers while providing ascension of a container on the floor to the forked support arms of the pallet jack 100.

Gear holes 49 in the sides of the pallet jack support arms offer another means of attaching the inclined ramp 44 to the front end of pallet jack 100, and allow the inclined ramp 44 to be hydraulically lifted and vertically pivot so as not allow the inclined ramp 44 to drag on the floor after loading or unloading a container, or to create a different angle of the inclined ramp 44 with the floor. Vertical rotation of the inclined ramp 44 can also act as a stopping mechanism for containers already being transported on the horizontal surface of the pallet jack 100. In one embodiment, gear holes are the pivotal points of the vertical and or horizontal movement of the inclined ramp 44. The leading edge of lip 47 of the inclined ramp 44 may swivel perpendicularly to give and support an angled lift onto the main body horizontal surface of the inclined ramp 44.

FIG. 4 shows guide rails 50, which may be hydraulically operated to offer horizontal to vertical-plus motion range to act as a guide or locking mechanism for freight already loaded onto the horizontal surface of pallet jack 100. Rear end adjustable host ramp extensions 45 have bushing pins that may fit into pre-drilled and positioned slot holes to allow host fork-ramps to extend forward (shown in FIG. 3), thereby increasing their length. Guide rails 50 may rotate horizontal to vertical 75 degree rotating hydraulically. Guide rails 50 can operate from the relaxed horizontal position to vertical to serve as a guide, dependent on to the width of the container and also to lock in freight from the bottom side edge of the boxes or crates from pressure of the guide rails 50. Rollers 14 may be variable in pattern and may include cylinders or balls.

FIG. 4 is a top view of the pallet jack 100 having roller overlay arms 10. Guide rails 50 are shown adjacent embedded roller overlay arms 10. Guide rails 50 may fold up on a hinge to keep a container from sliding off the pallet jack 100. The guide rails 50 may also be detachable. Guide rails 50 may be hydraulically controlled.

Although the disclosure has been described with reference to certain preferred embodiments, it will be appreciated by those skilled in the art that modifications and variations may be made without departing from the spirit and scope of the disclosure. It should be understood that applicant does not intend to be limited to the particular details described above and illustrated in the accompanying drawings. 

I claim:
 1. A pallet jack comprising: host support arms for supporting a load positioned thereon; the host support arms having proximal ends and distal ends; the proximal ends being adjacent to a bulkhead; the distal ends being removably attached to an inclined ramp; wherein said inclined ramp has rollers embedded within such that the rollers rise above a top surface of the inclined ramp in a manner sufficient to allow a container to move across the top surface of the inclined ramp unimpeded onto an overlay platform; wherein the overlay platform is attached at a base of a host bulkhead such that the overlay platform may rotate from a vertical position to a horizontal position to cover the host support arms; and wherein between said proximal end and said distal end of the host support arms are a plurality of rollers embedded in the host support arms such that the rollers rise above a top surface of the host support arms in a manner sufficient to allow the container to roll across the top surface of the host support arms unimpeded; wherein the overlay platform has at least two gaps such that when the overlay platform is in the horizontal position a top surface of the overlay platform is above a highest vertical point of the rollers.
 2. The pallet jack of claim 1, wherein the at least two gaps corresponds to a shape of the rollers.
 3. The pallet jack of claim 1, wherein the top surface of the overlay platform is solid.
 4. The pallet jack of claim 1, wherein the overlay platform is attached to the host support arms via a hinge and an overlay platform axle.
 5. The pallet jack of claim 1, wherein the inclined ramp attaches to an axle mounted on distal ends of the host support arms.
 6. The pallet jack of claim 1, wherein the inclined ramp is attached to gear holes in outer sides of the host support arms to allow the inclined ramp to be hydraulically lifted and vertically pivot so as not allow the inclined ramp to drag on a floor after loading or unloading the container.
 7. The pallet jack of claim 1, wherein the inclined ramp is attached to the pallet jack via an axle welded to the pallet jack.
 8. The pallet jack of claim 1, wherein the rollers in the host support arms are configured to with a suspension system such that the rollers may lower.
 9. The pallet jack of claim 1 wherein the inclined ramp is inclined at approximately a 45 degree angle from a floor.
 10. A pallet jack comprising: host support arms integral with the pallet jack for supporting a load positioned thereon; the host support arms having proximal and distal ends; the proximal ends being adjacent to a host bulkhead; wherein an overlay platform generally matching a shape of the host support arms of the pallet jack is attached by a hinge at a base of the host bulkhead such that the overlay platform may rotate from a vertical position to a horizontal position to cover the host support arms; wherein between said proximal end and said distal end of the host support arms are a plurality of rollers embedded in the host support arms such that the rollers rise above a top surface of the host support arms in a manner sufficient to allow a container to roll across the top surface of the host support arms unimpeded; and wherein the overlay platform has gaps corresponding to a shape of the rollers embedded in the top surface of the host support arms such that when the overlay platform is in the horizontal position the overlay platform does not contact the rollers and a top surface of the overlay platform is above a highest vertical point of the rollers.
 11. The pallet jack of claim 10, wherein the overlay platform is held in the vertical position by a pin and clip attachment with the host bulkhead.
 12. The pallet jack of claim 10, wherein the overlay platform is locked in the vertical position using a clip or tie attached to a slotted opening.
 13. The pallet jack of claim 10, wherein the host support arms are attached to at least two rotatable guard rails.
 14. The pallet jack of claim 10, wherein overlay platform support arms are connected by at least one fork stabilizer.
 15. The pallet jack of claim 10, wherein the rollers are cylindrical in shape.
 16. The pallet jack of claim 10, wherein an inclined ramp having rollers is attached to the front of the host support arms.
 17. The pallet jack of claim 10, wherein an axle is fused to a front of the host support arms for attachment of an inclined ramp.
 18. A pallet jack comprising: host support arms integral with the pallet jack for supporting a load positioned thereon; the host support arms having proximal and distal ends; the proximal ends being adjacent to a host bulkhead; wherein an overlay platform generally matching a shape of the host support arms of the pallet jack is attached at the host bulkhead such that the overlay platform may move from a vertical position to a horizontal position to cover the host support arms; and wherein when the overlay platform is in the horizontal position the overlay platform encloses the rollers such that a top surface of the overlay platform is above a highest vertical point of the rollers.
 19. The pallet jack of claim 18, wherein the overlay platform covers the rollers.
 20. The pallet jack of claim 18, wherein the pallet jack is attached at a base of the host bulkhead by a hinge. 